EP4018917A1 - Set consisting of body support and sensor unit - Google Patents

Abstract

The invention relates to a set 1 consisting of a body mount 2 and a sensor unit 3, consisting of a body mount 2, which can be connected to a body part in a force-transmitting manner, in particular suitable for wrapping around the body part, and can be detached from it without tools, and a sensor unit 3, which has a sensor housing 4 and a sensor arranged therein and a transmission device with which sensor data can be transmitted wirelessly, the body mount 2 consisting of a carrier unit 6 with a receptacle arranged thereon for the sensor housing 4 and a receptacle on opposite sides of the carrier unit 6 this connected sling unit 7, with which the body part can be slung, which has a longitudinal axis 8 running around the slung body part and which has two free ends which can be connected to one another in a slung state. A set consisting of a body mount 2 and a sensor unit 3 ready llen, by means of which a relative movement between a wrapped body part and the set of a body holder 2 and a sensor unit 3 located thereon is reduced, it is proposed according to the invention that the wrapping unit 7 has at least one rod joint part 10, which has a plurality of transverse to the longitudinal axis 8 , rods that are articulated to one another at their ends, wherein a length of the rod joint part 10 measured in the direction of the longitudinal axis 8 can be elastically increased by tensile forces running in the direction of the longitudinal axis 8 . In addition, the at least one rod joint part 10 is connected in one piece to the carrier unit 6 and the carrier unit 6 and the at least one rod joint part 10 are designed as a plastic injection molded part.

Description

The invention relates to a set consisting of a body mount and a sensor unit according to the preamble of claim 1.

State of the art

Sets consisting of a body mount with a sensor unit are known in a wide variety of embodiments in the prior art. With such sets, in particular, acceleration data during a movement of the person wearing them, z. B. a person moving on a treadmill with a shoe to be tested, recorded and either stored or preferably transmitted to a receiver with evaluation and display device, preferably wirelessly using Bluetooth or WLAN. The sets are attached in the area of a shoe, foot, ankle and/or lower leg.

Typical embodiments of the known sets include a body mount, consisting of a carrier unit on which a receptacle for a sensor unit is arranged, and a strapping unit, which preferably consists of a rubber band or rubber belt. The carrier unit is non-positively attached to a body part by means of the wrapping unit, so that the connection can be attached and detached without tools.

In a further embodiment, the wrapping unit also consists of brackets which are connected to the body mount in an articulated manner on opposite sides of the latter. The bracket as such is designed in an inelastic form, so that mobility is achieved exclusively as a whole and relative to the body mount via joints. Due to the non-elastic design of the brackets, the adaptability of the body mount to the various body shapes wrapped around it, particularly in the case of small body part cross-sections, is disadvantageous. A disadvantage is the reduced adhesion between the body part and the body mount located thereon, as a result of which undesired relative movements occur between the body mount including the sensor unit and the body part. These relative movements result in accelerations recorded by the sensor unit, which do not reflect the actual accelerations of the body parts, but which reflect a "life of their own" of the sets and reduce the data quality and also in less wearing comfort for the person whose body part is wrapped.

In addition, from the US 6,254,551 B1 a device for detecting and transmitting sensor signals relating to bodily or vital functions is known. In one embodiment, the sensor is attached to a person's body with a strap or belt. This band has an elastic area or section that performs a measuring function via its change in length. Preventing relative movements between the body and the sensors is neither necessary nor even addressed in this prior art.

the US 3,830,414A and the U.S. 2015/0164419 A1 each disclose a watch-like device that attaches to a person's arm by means of a bracelet. In the first-mentioned document, an elastically stretchable section is formed from a plurality of metal elements, the specific structure of which is not explained in any more detail. In the U.S. 2015/0164419 A1 there is an extensible section of the bracelet at its two ends facing the watch case, each in the form of double-meandering webs. The compensating sections cannot fulfill a stabilizing function for the watch case.

task

The invention is therefore based on the object of further developing the set of the body mount and the sensor unit of the type described above in such a way that a relative movement between an entwined body part and the set of the body mount and the sensor unit located thereon is reduced.

solution

Based on a set consisting of a body mount and a sensor unit of the type described above, the underlying object is achieved according to the invention in that a belting unit has at least one rod joint part, which has a plurality of rods arranged transversely to a longitudinal axis, which are connected to one another in an articulated manner at their ends are, wherein the at least one rod joint part 10 is integrally connected to the carrier unit 6 and wherein the carrier unit 6 and the at least one rod joint part 10 are formed as a plastic injection molded part.

A length of the rod joint part measured in the direction of the longitudinal axis can be increased elastically by tensile forces running in the direction of the longitudinal axis. Advantageous versions result from the features of the dependent claims.

The solution according to the invention enables the body mount to better adapt to the shape of a body part wrapped around it by the at least one rod joint part. This achieves better adhesion between the wrapped body part and the body mount located thereon. As a result, the relative movement between the two is reduced. On the one hand, this leads to greater wearing comfort for a person to whom the body mount is attached, and to a higher quality of the recorded data, in particular acceleration peaks, which arise from undesired relative movements between the sensor and the person's body and falsify the measurement result, are prevented. In addition, the fact that the carrier unit and the at least one rod joint part are in one piece ensures that there is no play and therefore no relative movement between the carrier part and the wrapping unit. In addition, the one-piece design offers great manufacturing advantages due to reduced tool, material and assembly costs. In contrast to metal rod joint parts, which are composed of many individual parts, the production costs of one-piece units made of carrier unit and rod joint part (or parts) designed as plastic injection molded parts are significantly lower.

The improved adhesion is achieved through better adaptability of the body mount, in particular of the at least one rod joint part, to the shape of the wrapped body part. Joints, which are associated with the at least one rod joint part and connect associated rods to one another, enable the length of the rod joint part to be increased in the direction of the longitudinal axis by loading these rods in bending. Advantageously, the joints also allow at least partial rotation of the rods relative to one another about axes of rotation running through the respective joint and perpendicular to the longitudinal axis. As a result, the body mount can adapt to different body shapes along a wrapping direction. Even if the joints can in principle be designed as classic rotary joints with clearly defined axes of rotation, it is preferred that the joints are formed by simple material bridges that are subjected to bending or torsion loads, i. H. Connection cross-sections are formed between adjacent rod ends. This is the case with a one-piece design of the carrier unit and rod articulated part, as is the case according to the invention.

Preferably, the at least one rod joint part detachably connects to the strap part at the end facing away from the carrier unit, more preferably a single strap part connects the free ends of two rod joint parts to one another with its two opposite ends, preferably detachably. The rod joint parts take over in this case not the closing function of the wrapping unit, but only form a length compensation and stabilization function.

An advantageous embodiment consists in that a rod joint part is arranged on opposite sides of the carrier unit. The presence of rod joint parts on both sides leads to a more uniform and therefore better adhesion of the set consisting of the body mount and the sensor unit to the wrapped body part, viewed around the longitudinal axis. This prevents rotation of the set along an axis perpendicular to the longitudinal axis pointing to the center of the encircled body part.

Advantageously, the sensor housing is also designed as a plastic injection molded part. This enables rapid manufacture while maintaining low manufacturing tolerances. In particular, plastic has advantageous elastic properties and a low mass.

A development of the invention consists in the wrap-around unit having at least one flexible, preferably rubber-elastic, strap part, with a closure element preferably being arranged on at least one free end of the strap part, preferably on one free end of each strap part. In this way, an improved adaptation of the strap part to the shape of the wrapped body part and a non-positive connection of the body mount to the wrapped body part are achieved. In addition, the design with rubber offers advantageous adhesion properties.

It is possible for the at least one rod joint part to have a meandering design. This configuration is advantageous because a meander shape has a structure that can be bent in itself, so that the individual rods of the meander shape can adapt to the different shape of the body part being wrapped around. This advantageous adaptability improves the adhesion of the at least one rod joint part to the slung body part, thereby reducing the relative movement to one another.

Advantageously, the at least one rod joint part can be composed of a plurality of diamond elements. Four bars arranged in the shape of a rhombus form a double meander shape. This achieves an advantageous adaptability and thus improved adhesion of the at least one rod joint part to the wrapped body part. As a result, the relative movement to one another is reduced and the sensor data quality is improved.

A development of the invention consists in a coupling area of the at least one rod joint part, in which one end of the respectively assigned strap part is connected to the rod joint part, a hook element or an eyelet element is arranged, which can be coupled with at least one complementary eyelet element or hook element of the strap part. In addition to coupling via an eyelet-hook connection, connections, e.g. in the form of a tension belt, are also possible. This enables the strap part to be attached and detached from the rod joint part and the wrapped body part without the use of tools. In addition, the at least one eyelet element or hook element of the strap part allows the looping devices to be adapted to different cross sections of the body part.

A further development of the invention is that the longitudinal axis of the wrap-around part runs through the at least one coupling area of the at least one rod joint part. As a result, the carrier unit, including the sensor unit, is arranged centrally on the longitudinal axis, resulting in an advantageous weight distribution of the carrier unit and sensor unit above and below the longitudinal axis.

As a result, will

A further advantageous embodiment consists in that an underside of the carrier unit and/or the at least one rod joint part which faces the body part is at least partially provided with a thermoplastic elastomer, the carrier unit and/or the at least one rod joint part preferably being produced by means of a two-component injection molding process or are. The application of a thermoplastic elastomer to the underside facing the body part leads to a significant improvement in the adhesion of these parts to a skin in contact with the body part wrapped around them. As a result, the relative movement between the entwined part of the body and the sensor unit is significantly reduced. Furthermore, the execution in the form of a two-component injection molding process is advantageous because the injection molding of the thermoplastic elastomer ("soft component") can be integrated into the manufacturing process as step 2 without additional assembly or post-treatment and the workpiece cannot be removed from the tool after the injection of the hard component must become..

Advantageously, joints between adjacent bars are loaded in bending. The flexural loading allows for improved conformability of the rod joint portion, as each individual rod can conform to the shape of the body part being slung.

example

Figur 1.

Eine Ansicht des erfindungsgemäßes Sets 1 aus einer Körperhalterung 2 und einer Sensoreinheit 3,

Figur 2.

Eine Ansicht auf die Unterseite des Sets 1,

Figur 3.

Einen Schnitt durch das Set 1 entsprechend der Schnittebene A-A in Figur 2.

The invention is explained in more detail below using an exemplary embodiment which is illustrated in the figures. It shows:

figure 1

A view of the set 1 according to the invention consisting of a body mount 2 and a sensor unit 3,

figure 2

A view of the bottom of set 1,

figure 3

A section through the set 1 according to the section plane AA in figure 2 .

An embodiment that Figure 1 to Figure 3 is shown, a set 1 according to the invention comprises a body mount 2 and a sensor unit 3 , the body mount 2 consisting of a carrier unit 6 and a wrapping unit 7 . The wrapping unit 7 is formed from a strap part 13, which is preferably made of rubber, and two rod joint parts 10, each consisting of a plurality of rods 11 with joints 12 attached therebetween. The rod joint parts 10 are arranged on the carrier unit 6 on opposite sides. The carrier unit 6 and the rod joint parts 10 are produced in one piece by means of a plastic injection molding process and form a single coherent injection molded part. At the end of each rod joint part 10 is a free end 9 each having a hook element 14 to which the strap part 13 with complementary eyelet elements 14 can be attached. For this purpose, the band part 13 has eyelet elements 14 at different positions along the longitudinal axis 8, as a result of which the wrapping unit 7 is limited to a diameter of a wrapped body part, e.g. B. an ankle, can be adjusted.

To do this, the set 1 is placed on the body part to be wrapped and the strap part 13, which is already connected to a free end 9 of the rod joint part 10, is wrapped around the body part and attached to the other free end 9 of the other rod joint part 10 in such a way that both the band part 13, as well as the rod joint parts 10 are loaded in train. As a result, the wrap-around unit 7 is elastically enlarged by a distance along the longitudinal axis 8 , with the overall lengthening being brought about both by an elastic stretching of the two rod joint parts and by an elastic stretching of the strap part 13 . This allows body parts with different diameters to be entwined, with an appropriate tension for securely fixing the set 1 to the body part always being able to be implemented.

Thus, the individual rods 11 can by the meandering shape of the rod joint parts 10 to different forms of expression of the wrapped body part along the Adjust the longitudinal axis 8 of the wrapped body part. As a result, the wearing comfort is improved, in particular better adhesion is achieved between the wrapping unit 7 and the body part, as a result of which a relative movement between the sensor unit 3 and the wrapped body part is reduced. The comparatively large width of the jointed rod parts 10 (measured transversely to the longitudinal axis 8 of the wrapping unit 7) also prevents relative rotation between the carrier unit 6, which has a greater thickness and mass, and the jointed rod part 10 connected in one piece. The respective connection between rod articulated part 10 and support unit 6 is designed to be non-rotatable and has a correspondingly large connection cross-section.

In addition, a preferably continuous thermoplastic elastomer layer 16 can be applied to the underside 15 of the carrier unit 6 and/or the rod joint parts 10 . This improves the adhesion between the rod joint part 10 and/or the carrier unit 6 and the skin of the wrapped body part which is in contact with the thermoplastic elastomer 16 . In particular, a (translational) relative movement between the entwined part of the body and the sensor unit 3 is thus reduced or prevented. This design is in figure 2 to recognize.

In figure 3 an interior space 5 of the sensor housing 4 is visible, in which a sensor and a transmission device, in a form known in accordance with the prior art, are located. Both the sensor and the transmitter are not shown in the figures. According to the invention, it is a sensor for measuring accelerations. However, any other sensor types are also possible. The sensor housing 4) is attached to the carrier unit 6 via a click connection.

Reference List

1.

set

2.

body mount

3.

sensor unit

4.

sensor housing

5.

inner space

6.

carrier unit

7.

wrapping unit

8th.

longitudinal axis

9.

free end

10

rod joint part

11.

Rod

12.

joint

13.

band part

14

hook or loop element

15

bottom

16

Thermoplastic Elastomer

Claims (10)

Set (1) consisting of a body mount (2) and a sensor unit (3), consisting of - a body mount (2) which can be connected to a part of a human body in a force-transmitting manner, in particular suitable for wrapping around the part of the body, and can be detached from it without tools, and - a sensor unit (3) which has a sensor housing (4) and a sensor arranged therein and a transmission device with which sensor data can be transmitted wirelessly, wherein the body mount (2) from - A carrier unit (6) with a receptacle arranged thereon for the sensor housing (4) and - there is a wrapping unit (7) connected to the carrier unit (6) on opposite sides thereof, ○ with which the body part can be wrapped, ○ which has a longitudinal axis (8) running around the entangled body part and ○ has two free ends (9) which can be connected to one another in a looped state, wherein the wrapping unit (7) has at least one rod joint part (10), which has a plurality of rods (11) arranged transversely to the longitudinal axis (8) and connected to one another in an articulated manner at their ends, with one measured in the direction of the longitudinal axis (8). The length of the rod joint part (10) can be increased elastically by tensile forces running in the direction of the longitudinal axis (8), characterized in that the at least one rod joint part 10 is connected in one piece to the carrier unit 6 and that the carrier unit 6 and the at least one rod joint part 10 are made as a plastic Injection molded part are formed. Set (1) according to Claim 1, characterized in that a rod joint part (10) is arranged on opposite sides of the carrier unit (6). Set (1) according to one of the preceding claims, characterized in that the sensor housing (4) is designed as a plastic injection molded part. Set (1) according to one of the preceding claims, characterized in that the wrapping unit (7) has at least one flexible, preferably rubber-elastic, strap part (13), with more preferably at least one free end (9) of a strap part (13) preferably on a closure element (14) is arranged on each free end (9) of each strap part (13). Set (1) according to one of the preceding claims, characterized in that the at least one rod joint part (10) has a meander shape. Set (1) according to one of Claims 1 to 5, characterized in that the at least one rod joint part (10) is composed of a plurality of diamond elements which each consist of four rods arranged in the shape of a diamond. Set (1) according to one of the preceding claims, characterized in that in a coupling area of the at least one rod joint part (10), in which one end of the respectively assigned strap part (13) is connected to the rod joint part (10), a hook element or an eyelet element (14) which can be coupled with at least one complementary eyelet element or hook element (14) of the strap part (13). Set (1) according to Claim 8, characterized in that the longitudinal axis (8) of the wrap-around part (7) runs through the at least one coupling region of the at least one rod joint part (10). Set (1) according to one of the preceding claims, characterized in that an underside (15) of the carrier unit 6 and/or of the at least one rod joint part (10) facing the body part is at least partially provided with a thermoplastic elastomer (16), with preferably the The carrier unit (6) and/or the at least one rod joint part (10) is/are produced by means of a two-component injection molding process. Set (1) according to one of the preceding claims, characterized in that joints (12) between adjacent bars (10) are subjected to bending loads.

Images